Telescience Update

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Telescience Update

• Shinji Shimojo
• Fang-Pang Lin

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Telescience working group on PRAGMA
Co-lead by me and Fang-Pang Lin
data acquisition, sharing, analysis and
visualizing by (remote) observation using sensors
and devices

• 1. Environment
• a. Common Test Platform
• b. Common Architecture
• i. Middleware
• Portals, Data Turbine
• ii. Viz Wall (TDW) , starCAVE, HOPE,
• covise, sage
• iii. Real time video streaming
• iv sensors
• 2. Applications
• a. General Targets
• i. On demand real-time streaming.
• ii. Distributed measurement
• iii. Scalable, adaptive, reusable
• b. Applications Bio-medical, Earthquake, Flood
  Control,
• Meteorological, Agricultural,
  Ecological, Oceanographic,
• GeoScience, environmental monitoring for
  Urban Area
• c. Educational Component
• PRIME and PRIUS

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Tele-science on Tomography (Osaka U?NCHC?UCSD)
Pacific Rim Application Grid Middleware Assembly
SDSC
Osaka U.
NCHC
NCHC will host 5th PRAGMA in Oct. 2003
iGrid 02, joint demo, Sep. 2002 SC 02, HPC
Challenge, Nov. 2002
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Provided by Dr. Naoko Yamada (NCMIR)
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External Imaging Instruments
Internal Imaging Instruments
Jeol 4000 2
Jeol 3200
Jeol 40001
Electron Microscopes
Jeol 1.25Mev Daejon, South Korea
Jeol 2000 Oxford, U.K.
Jeol 3Mev Osaka, Japan
Olympus
Radiance
Radiance
Radiance
4Pi Microscope Bar Harbor, Jackson
Light Microscopes
Viz Resources
Computation and Storage Resources
Storage
NCMIR
Calit2
Clusters
HDTV Trans. KDDI NTT Research Channel
CCDB
Optical Networking
BIRN Rack
EVL
Source Mark Ellisman
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Step Two Build a Rocks / SAGE OptIPortal
UZurich
CNIC
NCHC
Osaka U
Source Larry Smarr
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What is the plan for this year

• Make 10Gbps enabled TD
• Osaka U, NICT, KISTI, NCHC, Kyoto U
• PRIME project
• 3D teleexistance project
• Joint WG with GeoScience WG in PRAGMA 15
• Urban environment monitoring
• Data Processing, Sharing, Visualization
• New Project
• Parallel rendering, Interaction
• Cultural Heritage

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Issues

• Joint WG with GeoScience Need more time
• Lets do it again
• Demo for SC08
• Push from Education
• Push From education HD lecture series Part of
  Pragma Outreach

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What happens after PRAGMA 15

• SC08
• Peta-scale Visualization Platform
• Many TDW
• Used for Large scale Visualization and HD
  streaming
• Sensor net activity
• Pragma Institute in Taichu
• More Collaboration with Geo
• Start of new collaboration with e-Culture
• Murpa seminar on Feb.
• Trial for HD multicasting
• Exibition on Knowledge Captal
• TDW for 4K, Large Scale volume rendering,
  Cultural Heritage, HD animation
• Demo at KISTI

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Peta-scale Visualization Platform(CMC and NICT)

• Scalable TDW with GPGPU 10G-Cluster
• Asterism ADT08 (SuseLinux64)
• Quad Core Opteron 2350 x 2 (8core)
• Chelsio 10G ether S320E-CXA
• 32GByte DDR2 memory
• Quadro FX4600/4700
• 24inch WUXGA display
• L3 switch
• HP Procurve 6400cl-6XG
• 10GbE X2-SC LR Optic

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Tera-scale Volume data

• Unstructured Hexahedron Mesh
• 72million mesh
• Result data set 4.2GByte/1step

Human vocal tube
CFD Simulation Result
Calculation condition T2K 64 nodes via Myrinet
10G (Quad- core Opteron x 4) Total 1024
cores SX9 4 nodes via IXS 16.4G Total 64 CPUs
Simulated area

AIR
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Uncompressed HDTV on Tiled Display Wall and
10-Gbps High-Accuracy Distributed Network
Monitoring
NTT Network Innovation Laboratories Cybermedia
Center, Osaka University
Uncompressed HDTV on Tiled Display Wall
10-Gbps High-Accuracy Distributed Network
Monitoring
Osaka University and NTT have developed an
uncompressed HDTV streaming system for a tiled
display wall. The system can receive HDTV
streams from the NTT i-Visto system. NTT has
also developed a protocol converter, which
enables interoperation between i-Visto and
iHD1500 developed by the University of
Washington. NTT promotes standardization of the
protocol to facilitate the wide-ranging use of
uncompressed HDTV transmission.
NTT has developed a 10Gbps network interface card
with high- accuracy traffic-measurement
capabilities, which enables distributed network
monitoring systems using an application-coexistent
monitoring scheme. In this booth, we
demonstrate the measurement of traffic burstiness
and delays using 100-ns fine-resolution packet
time-stamps appended to i-Visto streams. The
characteristic differences are shown on two
different networks from Japan to the United
States using deployed systems in Seattle and
Austin.
Tiled Display
10-Gbps monitoring system
GPS

high-speed IP network
i-Visto by NTT
tiled display wall
Seattle
Osaka
protocol converter
Los Angels
Austin
TS
IP/UDP
data
iHD1500by University of Washington
i-Visto packet with time-stamp
XG-2 by NTT-AT
HD-SDI monitor
i-Visto
This work was partially supported by the National
Institute of Information and Communications
Technology.
Contact NTT Network Innovation
Laboratories E-mail sc08_at_lab.ntt.co.jp
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Live E! on P2P Platform PIAX
We implemented Live E! Agent on PIAX. Live E!
Agent retrieves and stores Live E! data. Well
test and implement the other agents like
forecast agents.
PIAX Overlay Network
PIAX
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• Telescience New elements (led by Shinji)
• E-Culture via Sensor Network/4K-HD/TDW
• GLEON met Geo WG (Tim, Ryosuke) and later in
  GLEON 8 PRAGMA
• Taiwans new Ocean Space Research Programs
• Water Resource Agency invited
• Center of Excellence (CEPERC) update (led by
  Whey-Fone)
• Bioscience Infectious Flu (led by Wilfred)
• Resources Cloud on the rise (led by Yoshio)
• Cloud Computing (Phil)
• DRBL/Clonzilla (Steven)

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Digital Clinical Chart of a Work of Art for a
Museum of the Future
M a u r i z i o S e r a c i n i

Director of CISA3 Center of
Interdisciplinary Science for Art, Architecture
and Archaeology at CALIT2
University of California, San Diego
December 1, 2008
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Multispectral Diagnostics Imaging
Source Maurizio Seracini
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GLEON 8 Meeting Monday 2 - Friday 6 February
2009The University of Waikato, Hamilton, New
Zealand
Lake Rotorua, New Zealand
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HDV_at_ KentingNCHC, NMMBA, UCSD, TORI
NCHC, Hsinchu (4M, 1M)
NMMBA, Kenting (10M)
http//140.110.31.130/SC/
PRAGMA 14 March 2008 Taiwan CREON Integration
Meeting Started
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Coral Reef Observation Station at Ochied Island
Site
(Yei-Yu)
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Source Whey-Fone Tsai
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TDWs on Knowledge Captial Exibition
Mar 12,13 2009
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(No Transcript)
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Telescience breakout

• Day1 Telescience, and E-culture
• Eisaku Sakane A design and implementation of a
  data management and visualization system towards
  online microscopic imaging
• Fang-Pang Lin Cultural heritage in NPM
• CHIKAMA Masaki, "Renaissane painting analyzed by
  Terahertz light on Tiled Display Wall
• Naohisa Sakamoto, "Visualization of Large and
  Complex Volume Dataset on TDW
• JongWon Kim, "Unified Meeting Space for
  Media-centric Networked Collaboration
• Day 1 joint with GeoScience
• Young-Gyu Park, "Introduction of high performance
  computing and visualization at Korea Ocean
  Research and Development Institute
• Fang-Pang Lin GLEON and CREON
• Mathew Grant Allan (University of Waikato,
  NZ)REMOTE SENSING OF WATER QUALITY AND
  TEMPERATURE IN LAKES
• Ryosuke NAKAMURA (AIST, JAPAN)Integration of
  satellite imagery and in-situ ground observations
• Young-Kwang Yeon, Korea Geoscience and Mineral
  ResourcesMathew Grant Allan, University of
  Waikato
• QinHai Lake by Baoping Yan

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Discussion

• Infrastructure for 2D/3D
• SAGE, CGLX, KVT, etc.
• It is proven in demo that Common infrastructure
  is important
• Joint with Geo and tele-science
• Models
• tidal model
• 3D ecological Model
• Data Integration and standard
• OGC standard and KML
• Computational Power
• Parallelization of CODE
• Visualization Platform
• Google Earth
• Authentication, access control

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Home work

• Joint working group with Geo, telescience and
  Resource
• Data Integration
• AAA service
• Virtualization ?
• Joint demo with Geo WG for next Pragma
• Collaborative Demo for e-culture
• Prime student